Nano micro bubble generation device for bathing and bathing system

A micro-bubble generating device and nano-technology, which are applied in bathing devices, transportation and packaging, mixers, etc., can solve the problems of low air solubility, low solubility, and difficulty in forming nano-microbubbles, and increase the exchange frequency and blood. Circulation, the effect of increasing the dissolution pressure

Active Publication Date: 2014-12-03
LETSOZONE ENTERPRISE DEV CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0022] The patents listed above all disclose that air is used as a means of forming microbubbles. Due to the extremely low solubility of air, it is difficult to form nano-microbubbles.
Some therapeutic gases, such as hydrogen, oxygen, ozone, etc. have extremely low solubility, and it is difficult to use traditional methods or the methods listed above to increase their solubility and safely apply them in baths

Method used

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  • Nano micro bubble generation device for bathing and bathing system
  • Nano micro bubble generation device for bathing and bathing system
  • Nano micro bubble generation device for bathing and bathing system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0076] figure 1 It is a schematic diagram of the principle of the nano-microbubble generating device for bathing in Embodiment 1. Such as figure 1 As shown, the present embodiment proposes a nano-microbubble generating device for bathing, which includes: a gas generator 100 for providing soluble gas under a certain pressure state, a water supplier 200 for providing water under a certain pressure state, and a In the mixer 300 for dissolving and mixing the soluble gas and the water, the gas generator 100 and the water supplier 200 are connected to the mixer 300 respectively, and the soluble gas and the water are mixed in the mixer 300 Output after dissolution.

[0077] figure 2 It is a schematic structural diagram of a nano-microbubble generating device for bathing in Embodiment 1. Exemplary, such as figure 2 As shown, the mixer 300 of this embodiment includes a static mixing element 310 and a mixing pipeline 320, the gas generator 100 and the water supplier 200 are connect...

Embodiment 2

[0090] Figure 9 It is a schematic structural view of the bathing nano-microbubble generating device in Example 2. Such as Figure 9 As shown, this embodiment proposes a nano-microbubble generating device for bathing. This embodiment is further improved on the basis of Embodiment 1. The main difference with Embodiment 1 is: in the mixer 300 A dynamic mixing element 330 is further added.

[0091] The mixer 300 that the nano-microbubble generating device of the present embodiment adopts except including static mixing element 310 and mixing pipeline 320 also includes a dynamic mixing element 330, as Figure 10 to Figure 12 As shown, the dynamic mixing element 330 in this embodiment is a dynamic agitator, and the dynamic agitator includes a stator 331, a rotor 332 and a housing 333, the stator 331 and the rotor 332 are arranged in the housing 333, and the housing 333 One end is provided with an input port for introducing the soluble gas and the water, and the other end of the c...

Embodiment 3

[0096] Figure 13 It is the structural representation of embodiment three bubble bath systems. Such as Figure 13As shown, the present embodiment proposes a bubble bath system, which includes a bubble bath device and a bubble generating device, and the bubble generating device is the nano-microbubble generating device for bathing described in Embodiment 1 (refer to the embodiment for specific structure One), after the soluble gas and water are mixed and dissolved in the bubble generating device, the water in which the gas is dissolved under the pressure state is output to the bubble bath device, and the water in which the gas is dissolved in the pressure state is transported to the bubble bath device. After the bath device is released to normal pressure, the gas dissolved in the water forms nano-scale gas micro-bubbles due to the pressure reduction and is released slowly. During the micro-bubble bursting process, the surface to be cleaned can be hit to remove dirt. At the sam...

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Abstract

The invention discloses a nano micro bubble generation device for bathing and a bathing system. The nano micro bubble generation device comprises a gas generator, a water supply device and a mixer, wherein the mixer at least comprises a static mixing element and a mixing pipeline; at least one mixing cavity is formed in the static mixing element and the mixing cavity is filled with particle fillings and / or porous structural matters. The bathing system comprises a bathing device and the nano micro bubble generation device. According to the nano micro bubble generation device and the bathing system, dissolvable gas is mixed with and dissolved in the water in the bubble generation device; the water with the dissolved gas under pressure is output to the bathing device; the water with the dissolved gas under pressure becomes normal pressure after being output to the bathing device and released; as the pressure reduces, the dissolved gas in the water forms nano gas micro bubbles which are slowly released; a to-be-washed surface is hit during the burst of the micro bubbles; and dirt is removed and blood circulation is improved.

Description

technical field [0001] The invention relates to nanoscale microbubble generation technology, in particular to a nanometer microbubble generator and a bath system for bathing, especially suitable for the field of human body bathing and health care. Background technique [0002] People are increasingly aware of the importance of wellness and relaxation in today's fast-paced modern society. [0003] Traditionally, the use of water-soluble gases that are harmless to the human body, such as dissolved carbon dioxide or medicinal ingredients in water, is used to treat multiple diseases or health care at the same time during the bathing process. For example, carbonic acid hot springs are considered to increase medical Human blood circulation, in Europe, especially in Germany, bathing in carbon dioxide or hot springs containing medicinal ingredients is considered to increase blood circulation and be easily absorbed by the skin. Bathing in hot springs containing 1000ppm dissolved car...

Claims

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Application Information

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IPC IPC(8): B01F3/04B01F5/06B01F5/00B01F13/06B01F13/10B01F1/00A61H33/02
CPCA61H33/02B01F23/20
Inventor 王兴南
Owner LETSOZONE ENTERPRISE DEV CO LTD
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